Targeting prostate cancer progenitor cells with telomerase interference: A novel therapeutic strategy

Abstract

e22029 Background: We investigated whether telomerase, which is critical for benign stem cell activation, also plays a role in prostate cancer progenitor cells (PCPCs), which are thought to mediate therapy resistance and cancer progression, and we tested whether telomerase interference can effectively inhibit PCPC proliferation. Methods: A putative PCPC population was isolated from human prostatectomy specimens via collagen attachment and FACS selection for integrin α2β1 and CD44. PCPCs were characterized for gene expression (RT-PCR), clonogenicity (colony formation), invasiveness (matrigel chamber), and telomerase activity (qPCR-TRAP). PCPC telomerase interference was accomplished by lentiviral expression of 2 constructs: telomerase RNA with an altered template region (MT-Ter) and siRNA targeting wild-type telomerase RNA (anti-Ter siRNA). The effects of these constructs were assessed by measuring PCPC viability (MTS) and apoptosis (TUNEL assay). Results: An integrin α2β1+CD44+ putative PCPC population was isolated from 6 human prostate tumors. This population expressed high levels of “progenitor phenotype” genes (ABCG2, β-catenin, NANOG, Oct3/4) and low levels of “differentiated phenotype” genes (AR and PSA). PCPCs yielded >50 colonies per 1000 cells seeded on collagen after 3 weeks vs. none from FACS- cells, and matrigel chamber assay showed 10% of the PCPC population invading over 24 hours vs. none of the FACS- population. Most importantly, PCPCs possessed at least 20- fold greater telomerase activity than FACS- cells, and induction of telomerase interference in PCPCs via MT-hTer and anti- hTer siRNA expression elicited a brisk apoptotic response (TUNEL) by day 3 in >90% of cells, with concomitant near-complete growth inhibition (MTS). Conclusions: We have shown that human prostate tumors contain a subpopulation of prostate cancer progenitor cells (PCPCs) marked by an undifferentiated gene expression profile, vigorous clonogenicity and invasiveness, and high levels of telomerase activity that can be successfully exploited to neutralize these cells. Ongoing studies are investigating the in vivo effects of telomerase interference on PCPC tumorigenicity in mouse models. No significant financial relationships to disclose.